KR100368447B1 - The spool going and returning device of a spinning reel - Google Patents

Abstract

The present invention relates to a spool reciprocating mechanism of a spinning reel, and more particularly, a circular protrusion formed on one outer circumference of an idle gear that rotates in conjunction with the rotation of a handle is inserted to reciprocate the spool back and forth according to the rotation of the handle. By improving the reciprocating groove structure of the reciprocating slider, the spool reciprocating mechanism of the spinning reel can simplify the overall structure of the reciprocating groove, while allowing the fishing line to be wound evenly throughout the spool, and smoothly move the spool forward and backward. It is about.

The spool reciprocating mechanism of the spinning reel according to the present invention is engaged with the gear 12a built into the handle shaft 11 in the reel main body 1a of the spinning reel 1 and rotates in conjunction with the rotation of the handle. 21 is provided, a circular protrusion 22 is formed on one side outer circumference of the idle gear 21, and a circular protrusion 22 is formed at the rear end of the spool shaft 14 having the spool 4 at the tip end thereof. A reciprocating slider 23 having a reciprocating groove 24 to be inserted is provided to reciprocate the spool 4 forward and backward by the rotation of the handle. The reciprocating groove 24 is a reciprocating groove ( On the horizontal axis (X) of the orthogonal axis centered on the geometric center of gravity (G) of 24), a central inclined portion 33 inclined at an angle of 50 to 65 ° is formed, and an upper portion of the central inclined portion 33 In the lower part, in the vertical axis (Y) direction of the orthogonal axis, drawing a gentle arc from the central inclined portion 33 by the curved portions 31a and 32a. Extended straight ends 31 and 32 are formed spaced apart from the vertical axis Y, respectively, and ends of the straight ends 31 and 32 are curved to the vertical axis Y side at an angle of 10 to 20 degrees. It is characterized by.

Description

The spool going and returning device of a spinning reel}

The present invention relates to a spool reciprocating mechanism of a spinning reel, and more particularly, a circular protrusion formed on one outer circumference of an idle gear that rotates in conjunction with the rotation of a handle is inserted to reciprocate the spool back and forth according to the rotation of the handle. By improving the reciprocating groove structure of the reciprocating slider, the spool reciprocating mechanism of the spinning reel that can simplify the overall structure of the reciprocating groove and allow the fishing line to be wound evenly throughout the spool and move the spool smoothly back and forth. will be.

In general, the spinning reel is provided with a spool reciprocating mechanism which allows the spool to be reciprocated back and forth according to the rotation of the handle in order to rotate the handle so that the fishing line is wound around the spool. have.

The spool reciprocating mechanism as described above has an idle gear which is engaged with a gear installed on the handle shaft and rotates in conjunction with the rotation of the handle, a circular protrusion formed on one outer circumference of the idle gear, and a circular protrusion provided at the rear end of the spool shaft. It is comprised as a reciprocating slide in which the reciprocating groove to be inserted is formed.

The shape of the reciprocating groove into which the circular protrusion is inserted among the elements constituting the reciprocating mechanism is most closely related to the moving speed and the displacement of the spool according to the rotational angle of the handle, and has a straight line perpendicular to the spool axis. Known reciprocating grooves rotate while the circular protrusion of the idle gear moves in a constant circular trajectory, while the moving speed (or displacement) of the reciprocating slider is at the middle of the spool by a linear reciprocating groove into which the circular protrusion is inserted. It gradually decreases toward the front and rear ends, so that the fishing line is wound more at the front and rear ends than at the middle of the spool, so that the fishing line is easily entangled at the front and rear ends of the spool, and the fishing line winding surface There were irregularities such as irregular shape that caused the fishing line to be smoothly released from the spool when throwing the fishing gear.

As a spool reciprocating mechanism of a conventional spinning reel for solving the problems of the spool reciprocating mechanism having a linear reciprocating groove as described above, a fishing reel having a spool for receiving a fishing line and a reciprocating mechanism for a fishing spinning reel have a patent publication (notice number) : 1997-0007081) and published patent publications (published: 1998-024408), respectively.

1 is a diagram showing the support points of the circular projections for the reciprocating grooves every 30 ° revolutions of the idle gear in a conventional reciprocating mechanism, and FIG. 2 is the reciprocating grooves every 30 ° revolutions of the idle gear in another conventional reciprocating mechanism. 3 is a diagram showing the displacement of the reciprocating slider according to the rotational angle of the idle gear in another conventional reciprocating mechanism, and FIG. 4 is a diagram showing the spool spacing of another conventional reciprocating mechanism. 5 is a diagram showing a reciprocating groove of another conventional reciprocating mechanism.

First, the fishing reel having a fishing line receiving spool corresponding to the former is inclined at an angle of about 70 to 75 ° from the front to the rear side of the spool shaft, as shown in Figure 1, both ends about 40 with respect to the spool shaft The reciprocating slider corresponds to the center of the spool, having a reciprocating groove 24 'that is curved at an angle of ˜45 ° and is in the form of a roughly “S”, both ends being placed on the same vertical axis orthogonal to the spool axis. Due to the structure of the reciprocating groove 24 'between D' and point G 'corresponding to the rear end of the spool and between point J' corresponding to the center of the spool and point A 'corresponding to the front end of the spool, 90 The angle of rotation in ° allows the wire to be moved at a uniform speed so that the fishing line is wound evenly throughout the spool.

Then, the fishing spinning reel reciprocating mechanism corresponding to the latter is inclined substantially perpendicular to the inclined portion 33 "and the spool shaft at an inclination angle of about 45 ° from the front to the rear side of the spool shaft, as shown in FIG. A point corresponding to the front and rear end portions of the spool by the inclined portion 33 ", having a reciprocating groove 24 " that is a straight portion 31 ", 32 " extending to both ends of the portion 33 " At the point "A" and point G ", the moving speed of the reciprocating slider is increased and at the same time, the section C" and the point D "and the point I" and the point J "corresponding to the center of the spool and the fastest moving speed of the reciprocating slider are So that the sections "" do not coincide with each other at the center of the spool, that is, the sections C "and D" and the sections I "and J" are positioned at the front and rear positions of the spool center. The line is wound evenly.

However, in the conventional spool reciprocating mechanism of the spinning reel, the fishing reel having a fishing line accommodating spool corresponding to the former has an inflection point or a point L 'to a point F' corresponding to a point H 'during the stroke of the spool. When the moving direction of the reciprocating slider is changed at the inflection point corresponding to the point B ', the moving direction and the changing direction of the reciprocating slider are instantaneously reversed, and the portions corresponding to the respective points are connected with a gentle curve. The moving speed of the reciprocating slider according to the rotation of the idle gear at a predetermined angle is slower than in other zones, so that the fishing line is closer to the front and rear ends of the spool (corresponding to point a 'and point g' in the drawing) than other parts. More cold.

In addition, the moving speed of the reciprocating slider between the points A 'and C' and between the points G 'and I' is gradually increased to move the reciprocating sliders at the points N 'and P' corresponding to the center of the spool. The speed is the highest, and the sections of points C 'and D' and the sections corresponding to points I 'and J' are the sections with the fastest speed of the reciprocating slider, and the curved portion of the reciprocating groove 24 ' Since both ends lie on the same vertical axis, the sections of points C 'and D' and the sections of points I 'and J' coincide at the same position at the center of the spool during reciprocation. The amount of winding of the cord is very small.

In addition, since both ends of the reciprocating groove are curved at a relatively large angle of 40 to 45 °, the moving speed of the reciprocating slider is slightly reduced in the sections of points C 'and D' and the sections of points I 'and J'. Although it can be reduced, the time when the circular protrusion 22 'is delayed at both ends of the reciprocating groove 24', that is, the section and the point I 'and the point J' of the point C 'and the point D' having the fastest moving speed of the spool The longer the duration of the two sections of '' is another factor to reduce the amount of winding of the fishing line in the center of the spool.

Therefore, even though the fishing line is uniformly wound on the spool to some extent as compared with the reciprocating mechanism having the linear reciprocating groove, the amount of the fishing line is still increased at the front and rear ends of the spool and decreased at the center of the spool. There was a problem that the wound surface of the non-uniform throughout the spool.

In addition, the fishing spinning reel reciprocating mechanism corresponding to the latter allows the movement speed of the reciprocating slider to be increased at the point corresponding to the front and rear end portions of the spool by the inclined portion 33 ", and the movement speed of the reciprocating slider. While the section where the fastest is not coincident with each other at the center position of the spool, the fishing line is wound relatively evenly over the entire spool as compared to the former, but the circular protrusion 22 " As shown in FIG. 3 by the shape of the reciprocating groove 24 "itself in the course of flow, the point A" or point G "converted from the inclined portion 33" to the straight portions 31 "and 32" and , An irregular point such as a point E "or a point K" converted from the straight portions 31 "and 32" to the inclined portion 33 "occurs.

The irregular point as described above is a point where the circular protrusion 22 "is converted from the linear motion to the linear motion again in a reciprocating groove 24" and then converted into linear motion again. It causes the softness, and the effect such as the spool stops instantaneously. As the spool part corresponding to the above point, the fishing line is irregularly wound, and if the spool stroke is repeated, There was a problem that the irregular winding of the fishing line repeatedly occurs.

Particularly, among the irregular points as described above, the points A ″ and G ″ are corresponding to the front and rear ends of the spool where the moving speed of the reciprocating slider is the slowest, so that fishing lines are irregular at the front and rear ends of the spool. In addition, there is a problem that causes a phenomenon that the fishing line is smoothly released from the spool when throwing the fishing gear due to the phenomenon of winding a lot.

As shown in FIG. 3, the displacement of the reciprocating slider corresponding to the section between the point E "and the point F" and the section between the point K "and the point L" (interval between e "and f" in the drawing) It corresponds to the interval between l "and k", and the larger the displacement, the faster the moving speed of the reciprocating slider). It overlaps the section between H "and the section between point B" and point C ", and the displacement of the reciprocating slider corresponding to this section (the distance between I" and j "and b" and c " In addition, since it is somewhat larger than other sections, the amount of winding of the fishing line is very small at the portion between the center part and the front and rear ends of the spool, and the fishing line is uniformly distributed over the entire surface of the spool. Even if it is wound, the winding side of the fishing line There was a problem of becoming a waveform.

In addition, the reciprocating groove 24 "is a slight gap between the circular protrusion 22" and the reciprocating groove 24 "for smooth movement of the circular protrusion 22" as shown in FIG. (p), provided that the circular projection 22 "moves along the inclined portion 33" of the reciprocating groove 24 "and the straight portions 31" and 32 "of the reciprocating groove 24". Since the spool movement width is different in the case of moving along the slit, when the groove width q of the straight portions 31 "and 32" and the inclined portion 33 "are the same, the position of the fishing line wound on the spool Is unstable and the winding surface of the fishing line is uneven, so as shown in FIG. 5, the groove width t of the inclined portion 33 "-1 is the groove of the straight portions 31" -1 and 32 "-1. Smaller than the width q, so that the space S of the inclined portion 33 "-1 is equal to the space p of the straight portions 31" -1 and 32 "-1. Considering the diameter, there was a troublesome problem in designing and manufacturing the reciprocating groove 24 ".

The present invention has been made to solve the above-mentioned conventional problems, the spool reciprocating mechanism of the spinning reel according to the present invention is about 50 ~ 65 ° to the horizontal axis of the orthogonal axis centered on the geometric center of gravity of the reciprocating groove A central inclined portion inclined at an angle is formed, and at the upper and lower portions of the central inclined portion, straight ends extending in the direction of the vertical axis of the orthogonal axis are gently spaced apart from the vertical axis by drawing a gentle arc from the central inclined portion by the curved portion. The end of the straight end improves the reciprocating groove shape of the reciprocating mechanism so that it is formed to be bent toward the vertical axis side at an angle of 10 to 20 °, thereby simplifying the overall structure of the reciprocating groove while allowing the fishing line to be uniformly wound over the entire spool. It is also possible to smoothly move the spool back and forth at the same time. The challenge to enemy.

1 is a diagram showing the point of support of a circular projection for a reciprocating groove every 30 ° rotation of an idle gear in a conventional reciprocating mechanism.

Fig. 2 is a diagram showing the support points of the circular projections for the reciprocating grooves every 30 ° rotation of the idle gear in another conventional reciprocating mechanism.

Figure 3 is a diagram showing the displacement of the reciprocating slider according to the rotation angle of the idle gear in another conventional reciprocating mechanism.

4 is a diagram showing spool spacing of another conventional reciprocating mechanism.

5 is a diagram showing a reciprocating groove of another conventional reciprocating mechanism.

6 is a partially cut away front view of a spinning reel having a reciprocating mechanism according to the present invention;

Figure 7 is an enlarged partial front view of the reciprocating mechanism according to the present invention.

Figure 8 is an enlarged view showing a reciprocating groove of the reciprocating mechanism according to the present invention.

9A and 9B are diagrams showing the support points of the circular projections for the reciprocating grooves every 10 ° rotation of the idle gear in the reciprocating mechanism according to the present invention.

10 is a diagram showing the displacement of the reciprocating slider according to the rotational angle of the idle gear in the reciprocating mechanism according to the present invention;

FIG. 11A is a diagram illustrating point A in FIGS. 9A and 9B.

FIG. 11B is a diagram illustrating point B in FIGS. 9A and 9B.

FIG. 11C is a diagram illustrating point C in FIG. 9A.

FIG. 11D is a diagram illustrating point D in FIG. 9B.

<Explanation of symbols for main parts of drawing>

11: Handle Shaft 12: Drive Gear 12a: Gear

13: pinion gear 14: spool shaft 20: reciprocating mechanism

21: idle gear 22: circular projection 23: reciprocating slider

24: Reciprocating groove 31,32: Straight end 31a, 32a: Curved portion

33: center slope

The present invention for achieving the above object will be described in detail with reference to the accompanying drawings.

6 is a partially cutaway front view of a spinning reel having a reciprocating mechanism according to the present invention, FIG. 7 is a partially cutaway front view showing an enlarged reciprocating mechanism according to the present invention, and FIG. 8 is a reciprocating of the reciprocating mechanism according to the present invention. 9A and 9B are diagrams showing the support points of the circular projections for the reciprocating grooves every 10 ° rotation of the idle gear in the reciprocating mechanism according to the present invention, and FIG. FIG. 11A is a diagram showing a point A in FIGS. 9A and 9B and FIG. 11B is a point B in FIGS. 9A and 9B in the reciprocating mechanism. 11C is a diagram showing point C in FIG. 9A, FIG. 11D is a diagram showing point D in FIG. 9B, wherein reference numeral 1 denotes a spinning reel, 1a represents a reel unit, and Reversing lever, 3 Lag cap, a spool 4, 4a are closed gimmyeon fishing line, the rotor 5, 6 veil, 6a is shown the bail arm.

The spool reciprocating mechanism of the spinning reel according to the present invention is engaged with the gear 12a built into the handle shaft 11 inside the reel main body 1a of the spinning reel 1, as shown in FIGS. 6 and 7. The spool shaft 14 is provided with an idle gear 21 which rotates in conjunction with the rotation of the handle, and a circular protrusion 22 is formed on one outer circumference of the idle gear 21, and the spool 4 is provided at the distal end thereof. The rear end of the configuration is provided with a reciprocating slider 23 formed with a reciprocating groove 24 into which the circular protrusion 22 is inserted.

As shown in FIG. 8, the reciprocating groove 24 according to the present invention provided in the spool reciprocating mechanism 20 as described above has a geometric center of gravity G of the reciprocating groove 24 as a center point. Central inclination inclined at an angle of about 50 to 65 degrees with respect to the horizontal axis (X), with the orthogonal axis consisting of the horizontal axis (X) coinciding with the axis of (14) and the vertical axis (Y) orthogonal to the horizontal axis (X). The part 33 is formed.

The angle formed by the central inclined portion 33 with the horizontal axis X passes through the center of gravity G of the reciprocating groove 24 and is formed by the tangent Z and the horizontal axis X contacting the reciprocating groove center line T. Measured as an angle, the central inclined portion 33 is in the form of a straight line at the portion where the reciprocating groove center line T is in contact with the tangent line Z. FIG.

In addition, the upper and lower portions of the central inclined portion 33 extends in the vertical axis Y direction of the orthogonal axis while drawing a gentle arc from the central inclined portion 33 by the curved portions 31a and 32a. 32 are formed spaced apart from the vertical axis Y, respectively.

The straight end portions 31 and 32 are not substantially straight, but are gently curved from the central inclined portion 33 in the direction of the vertical axis Y of the orthogonal axis by the curved portions 31a and 32a, and thus the vertical axis Y of the orthogonal axis. The two axes Y 'and Y "moved in parallel to each other become a curve close to a straight line having the inflection points G ₁ and G ₂ in contact with the reciprocating groove center line T, and each of the linear ends 31 and 32 ) Is spaced apart from the vertical axis (Y) at predetermined intervals at the upper and lower portions of the reciprocating groove (24) by the central inclined portion (33).

In addition, the inflection points G ₁ and G ₂ are about one-tenth of the total distance between two tangents H and L parallel to the horizontal axis X and in contact with the ends of the reciprocating grooves 24. It is a point corresponding to 3, and the ends of the straight end portions 31 and 32 are _two in which the extension line of the reciprocating groove center line T is moved in parallel from the vertical axis Y based on the inflection point G ₁ and G ₂ . It is configured to be curved toward the vertical axis (Y) so as to be inclined at an angle of about 10 to 20 degrees with the axis (Y ', Y ").

The attached relationship of the spool reciprocating mechanism of the spinning reel according to the present invention having the reciprocating groove 24 having the above configuration and the movement of the reciprocating slider 23 at every 10 ° rotation of the idle gear 21 are shown. With reference to Table 1 showing the measured value of the displacement in detail for each section, each displacement unit in Table 1 is mm.

Table 1: Movement displacement of reciprocating slider every 10 ° rotation of idle gear

section Rotation angle Displacement section Rotation angle Displacement A to B section a 0 ° ~ 10 ° 0.4380 C ~ D section g 180 ° ~ 190 ° 0.0454 10 ° ~ 20 ° 0.9208 190 ° ~ 200 ° 0.4415 20 ° ~ 30 ° 0.0454 200 ° ~ 210 ° 0.7583 b 30 ° ~ 40 ° 0.4415 h 210 ° ~ 220 ° 0.9969 40 ° ~ 50 ° 0.7583 220 ° ~ 230 ° 1.1588 50 ° ~ 60 ° 0.9969 230 ° ~ 240 ° 1.2489 c 60 ° ~ 70 ° 1.1588 i 240 ° ~ 250 ° 1.2771 70 ° ~ 80 ° 1.2489 250 ° ~ 260 ° 1.2582 80 ° ~ 90 ° 1.2771 260 ° ~ 270 ° 1.2093 B ~ C section d 90 ° ~ 100 ° 1.2582 D ~ A section i 270 ° ~ 280 ° 1.1477 100 ° ~ 110 ° 1.2093 280 ° ~ 290 ° 1.0878 110 ° ~ 120 ° 1.1477 290 ° ~ 300 ° 1.0413 e 120 ° ~ 130 ° 1.0878 k 300 ° ~ 310 ° 1.0183 130 ° ~ 140 ° 1.0413 310 ° ~ 320 ° 1.0301 140 ° ~ 150 ° 1.0183 320 ° ~ 330 ° 1.0967 f 150 ° ~ 160 ° 1.0301 l 330 ° ~ 340 ° 1.1426 160 ° ~ 170 ° 1.0967 340 ° ~ 350 ° 0.9208 170 ° ~ 180 ° 1.1426 350 ° ~ 360 ° 0.4380

9A and 9B are diagrams showing the displacement of the reciprocating slider every 10 ° of rotation of the idle gear, with points A and C at the rear and front ends of the fishing line winding surface 4a of the spool 4; Correspondingly, point B and point D correspond to the center of the fishing line winding surface 4a of the spool 4, and the position of the circular protrusion 22 with respect to the reciprocating groove 24 at each point is from Fig. 11A. It is shown in the figure up to FIG.

First, the A-B section for moving the reciprocating slider 23 from the point A to the point B by the interlocking rotation of the idle gear 21 by the rotation of the handle, as shown in Figs. 9a and 11a, 11b, circular projection Section 22 is a section that is located inside the straight end portion 31 through the curved portion 31a formed on the upper portion of the central inclined portion 33, and the section a corresponding to the rear end of the fishing line winding surface 4a and It is subdivided into a section c corresponding to the central portion of the fishing line wound surface 4a and a section b corresponding to the rear end of the fishing line winding surface 4a and the middle portion of the center portion.

In the above section a, the moving speed of the reciprocating slider 23 is decelerated while the circular protrusion 22 passes through the curved portion 32a at the upper portion of the central inclined portion 33, thereby reciprocating in the section between the point A and the point C. As the section in which the moving speed of the slider 23 is the slowest, the total moving displacement of the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is 1.4042 mm.

In addition, the section b is a section in which the circular protrusion 22 moves to the straight end portion 31 past the curved portion 31a, whereby the reciprocating slider 23 is accelerated, and the idle gear 21 rotates 30 °. The total displacement of the reciprocating slider 23 is 2.1967 mm.

In addition, the section c is a section in which the circular protrusion 22 is located inside the straight end portion 31, and the moving speed of the reciprocating slider 23 is the fastest among the section between the point A and the point C. The total displacement of the reciprocating slider 23 according to the 30 ° rotation of the gear 21 becomes 3.6848 mm, and the circular protrusion 22 moves to the end of the straight end portion 31 curved at an angle of about 10 to 20 °. Instead, the moving speed of the reciprocating slider 23 becomes maximum when passing through the point B which is momentarily stopped in the vicinity of the inflection point G ₁ .

Next, a section B to C for moving the reciprocating slider 23 from the point B to the point C by the interlocking rotation of the idle gear 21 by the rotation of the handle is circular, as shown in FIGS. 9A, 11B, and 11C. Section d is a section in which the projecting portion 22 moves the central inclined portion 33 through the curved portion 31a inside the straight end 31, and corresponds to the center portion of the fishing line wound surface 4a of the spool 4. And the section f corresponding to the front end of the fishing line wound surface 4a and the section e corresponding to the middle portion of the front end and center portion of the fishing line winding surface 4a.

In the above section d, the circular protrusion 22 passing through the point B at which the movement speed of the reciprocating slider 23 reaches the maximum is moved to the curved portion 31a inside the straight end 31, so that the reciprocating slider 23 As the section where deceleration starts, the total displacement of the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is 3.6152 mm.

In addition, the section e is a section in which the circular protrusion 22 is positioned above the central inclined portion 33 after the curved portion 31a, and the moving speed of the reciprocating slider 23 reduced while passing through the section d is the curved portion. Further decelerating while passing through 31a, the total displacement of the reciprocating slider 23 in accordance with 30 ° rotation of the idle gear 21 is 3.1474 mm.

In addition, the section f is a section in which the circular protrusion 22 moves from the upper portion of the central inclined portion 31 to the lower portion and is located at the curved portion 32a formed under the central inclined portion 31. The moving speed is accelerated by the inclined portion 33, so that the total displacement of the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is 3.2694 mm.

Next, the C-D section for moving the reciprocating slider 23 from the point C to the point D by the interlocking rotation of the idle gear 21 by the rotation of the handle is circular, as shown in Figure 9b, 11c, 11d The front end of the fishing line wound surface 4a of the spool 4 as a section in which the protrusion part 22 is located in the straight end part 32 via the curved part 32a formed in the lower part of the center inclination part 33. It is subdivided into a section g corresponding to a section i corresponding to the center portion of the fishing line winding surface 4a and a section h corresponding to a middle portion of the front end portion and the center portion of the fishing line winding surface 4a.

The section g is a section overlapping at the same position as the section f of the sections B to C on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the circular protrusion 22 is the central inclined portion 33. Deceleration in the process of passing through the curved portion (32a) at the bottom of the), the movement speed of the reciprocating slider 23 is the slowest among the section between the point A to the point A, according to the 30 ° rotation of the idle gear 21 The total displacement of the reciprocating slider 23 is 1,2452 mm.

In addition, the section h is a section overlapping at the same position as the section e of the section B to C on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, the circular projection 22 is the curved portion 32a It is a section where the acceleration of the reciprocating slider 23 is started as it moves to the linear end 32 through), and the total displacement of the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is 3.4046 mm. do.

In addition, the section i is a section overlapping at the same position as the section d of the section B to C on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, the circular protrusion 22 is a straight end ( 32 is positioned inside the reciprocating slider 23, the moving speed of the reciprocating slider 23 is the fastest in the section between the point A and the point A. The total displacement is 3.7446 mm, and the circular protrusion 22 does not move to the end of the curved straight end 32 at an angle of about 10 to 20 °, and stops instantaneously near the inflection point G ₂ . When passing the point D, the moving speed of the reciprocating slider 23 becomes maximum.

Next, a section D-A for moving the reciprocating slider 23 from the point D to the point A by the interlocking rotation of the idle gear 21 by the rotation of the handle is circular, as shown in FIGS. 9B and 11D and 11A. A section j in which the protrusion 22 moves the central inclined portion 33 through the curved portion 32a in the straight end 32, and corresponds to the center portion of the fishing line wound surface 4a of the spool 4. And the section l corresponding to the rear end of the fishing line winding surface 4a and the section k corresponding to the middle portion of the rear end and the central portion of the fishing line winding surface 4a.

The section j is a section overlapping with the section c of the sections A to B on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the moving speed of the reciprocating slider 23 is maximum. The circular protrusion 22 past the point D becomes a section in which the deceleration starts by moving from the inside of the straight end portion 32 to the curved portion 32a, whereby the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is rotated. The total displacement is 3.2768 mm.

In addition, the section k is a section overlapping at the same position as the section b of the section A to B on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, the circular projection 22 is the curved portion 32a It is located in the lower portion of the center inclined portion 33 past the), the movement speed of the reduced reciprocating slider 23 is further reduced while passing through the section j, the reciprocating according to the 30 ° rotation of the idle gear 21 The total displacement of the slider 23 is 3.1451 mm.

In addition, the section l is a section overlapping at the same position as the section a of the section A to B on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, the circular projection 22 is the central inclined portion Since 33 is moved from the bottom to the top, the moving speed of the reciprocating slider 23 is slightly decelerated, so that the total movement displacement of the reciprocating slider 23 according to the 30 ° rotation of the idle gear 21 is 2.5014 mm. .

Hereinafter, a description will be given in detail of the relation between the fishing line wound on the fishing line winding surface 4a of the spool 4 according to the rotation of the handle for each section described above in detail as compared with the conventional case. .

First, the section a corresponding to the rear end of the fishing line winding surface 4a is a section in which the total displacement of the reciprocating slider 23 is the smallest (the slowest moving speed of the reciprocating slider) of 1.4042 mm. The amount of fishing line is increased compared to other sections.

However, in the above section a, since the circular protrusion 22 quickly moves to the straight end portion 31 through the curved portion 31a, the displacement of the reciprocating slider 23 in the same section is changed to the former in the conventional spool reciprocating mechanism. As shown, the circular protrusion 22 'is larger than the case of moving the point G' section corresponding to the inflection point, and the circular protrusion 22 "is straight on the inclined portion 33" as the latter. It becomes rather large compared with the case where it passes the irregular point G "converted into the part 31".

In addition, the section l overlaps the section a and the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the section l has a total displacement of 2,5014 mm in the reciprocating slider 23. .

The above section l is the same section because the circular projection 22 is inclined at an angle of about 50 ~ 65 ° and moves the central inclined portion 33, which becomes a substantially straight line in the vicinity of the center of gravity (G) from the bottom to the top, The displacement of the reciprocating slider 23 at is about 70 to 75 ° between the point F 'and the point G' where the circular protrusion 22 'corresponds to the inflection point, as is the former in the conventional spool reciprocating mechanism. The slope becomes larger than the case of moving the curved section, and as the latter case, the circular protrusion 22 "moves the inclined portion 33" of the linear form inclined at an angle of about 45 degrees. In comparison, there is almost no difference.

Therefore, the amount of fishing line winding of section a and section l corresponding to the rear end of the fishing line winding surface 4a during the reciprocating stroke of the spool 4 is the same as that of the former among the conventional spool reciprocating mechanisms in the same section. Not only will be less and less compared to the latter, as well as entanglement of the fishing line due to irregular movement of the circular projection 22 "does not occur.

In the section b corresponding to the rear end portion and the center portion of the fishing line winding surface 4a, the total displacement of the reciprocating slider 23 is 2.1967 mm, which is relatively small. It is increased compared to other sections except a.

However, in the above section b, since the circular protrusion 22 moves to the straight end portion 31 past the curved portion 31a, the displacement of the reciprocating slider 23 corresponds to the former in the conventional spool reciprocating mechanism. As can be seen, the circular protrusion 22 'is larger than the case of moving to the end of the reciprocating groove 24' past the curved portion bent at a relatively 큭 angle of 40 to 45 °, and the circular as in the latter case. As compared with the case where the protrusion 22 "passes through the irregular point G" and moves inside the straight portion 31 ", the movement displacement does not increase rapidly.

In addition, the section k overlaps with the section b on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the section k has a total displacement of 3.1451 mm in the reciprocating slider 23.

In the above section k, since the circular protrusion 22 moves from the straight end portion 32 to the lower portion of the central inclined portion 33 through the curved portion 32a, the displacement of the reciprocating slider 23 in the same section is conventional. As is the case in the spool reciprocating mechanism, the circular protrusion 22 'is larger than the case where the circular protrusion 22' is moved to the point F 'corresponding to the inflection point through a curved portion curved at a relatively 큭 angle of about 40 to 45 °. As in the latter case, the movement displacement does not increase rapidly as compared with the case where the straight portion 32 "moves through the irregular point E" and goes to the lower portion of the inclined portion 33 ".

Therefore, the amount of fishing line winding of section b and section k corresponding to the rear end of the fishing line winding surface 4a and the center portion of the center portion during the reciprocating stroke of the spool 4 is equal to the former among the conventional spool reciprocating mechanism in the same section. Compared to the corresponding one, the amount of the fishing line winding decreases rapidly in this section, as in the latter case, so that the winding surface of the fishing line is not concave in this section rather than the center portion. Rather, the fishing line is not entangled due to the irregular movement of the circular protrusion 22 ".

In the section c and the section d corresponding to the center of the fishing line winding surface 4a, the total displacement of the reciprocating slider 23 is 3.6857 mm and 3.6152 mm, respectively, so that the amount of fishing line winding in this section is It will be less than other sections.

However, the section c, the section j, and the section d and the section i overlap with each other on the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the section j and the section i are also likewise of the reciprocating slider 23 Although the total displacement is relatively large at 3.2768 mm and 3.7446 mm, the reciprocating slider among the section c where the moving speed of the reciprocating slider 23 is the fastest among the sections between the points A and C, and the section between the points C and A The section i, which has the fastest moving speed of 23, does not coincide at the center of the fishing line winding surface 4a, that is, on the basis of the center of the fishing line winding surface 4a corresponding to the point B, respectively. Will be located.

In addition, in the section c and the section i where the moving speed of the reciprocating slider 23 is the fastest, the inclined point G ₁ does not move to the end of the linear end portion 31 due to the shape of the reciprocating groove 24. _, Momentarily stopped in the vicinity of G ₂ ), so that the moving speed of the reciprocating slider 23 near the inflection point G _1, G ₂ is slightly reduced and the time held inside the straight end 31 is relatively small. In the same section, the displacement of the reciprocating slider 23 is maintained at both ends where the circular protrusion 22 'is curved at a relatively large angle of 40 ° to 45 °, as corresponds to the former in the conventional spool reciprocating mechanism. In the case of the latter case, the circular projection 22 " is smaller than the case in which the circular protrusion 22 " is located inside the straight portion 31 &quot;.

Therefore, the amount of fishing line winding in the section c, the section d, and the section j and the section i corresponding to the center portion of the fishing line winding surface 4a during the reciprocating stroke of the spool 4 is increased as compared with the conventional case.

In addition, the section e corresponding to the middle portion of the front end and the center portion of the fishing line wound surface 4a has a total displacement of 3.1474 mm of the reciprocating slider 23, and the amount of fishing line wound in this section corresponds to the center portion. It is somewhat increased compared to the above.

However, in the above section e, the circular protrusion 22 moves to the upper portion of the central inclined portion 33 through the curved portion 31a, so that the displacement of the reciprocating slider 23 in the same section is a conventional spool reciprocating mechanism. As shown in the former, the circular protrusion 22 'is larger than the case where the circular protrusion 22' is moved to the inflection point L 'through the curved portion that is bent at a relatively 큭 angle of about 40 to 45 °, and the circular as in the latter case. As compared with the case where the protrusion 22 "moves from the straight portion 31" to the inclined portion 33 "through the irregular point K", the movement displacement does not increase sharply.

Further, the section h overlaps with the section e above the fishing line winding surface 4a through the reciprocating stroke of the spool 4, and the section h has a total movement displacement of 3.4046 mm.

In the above section h, since the circular protrusion 22 moves to the straight end 32 through the curved portion 32a, the displacement of the reciprocating slider 23 in the same section corresponds to the former in the conventional spool reciprocating mechanism. Likewise, the circular protrusion 22 'is larger than the case where the circular protrusion 22' is moved to the end of the reciprocating groove through the curved portion curved at a relatively 큭 angle of about 40 to 45 °, and the inclined portion 33 corresponds to the latter. The displacement is not increased sharply as compared with the case where ") moves to the straight portion 32" through the irregular point A ".

Therefore, the amount of fishing line winding of section e and section h corresponding to the middle portion of the front end and the center of the fishing line winding surface 4a during the reciprocating stroke of the spool 4 is equal to the former among the conventional spool reciprocating mechanisms in the same section. Compared to the corresponding one, the amount of the fishing line winding decreases rapidly in this section, as in the latter case, so that the winding surface of the fishing line is not concave in this section rather than the center portion. Rather, the fishing line is not entangled due to the irregular movement of the circular protrusion 22 ".

In addition, the section f corresponding to the front end of the fishing line winding surface 4a has a total movement displacement of 3.2694 mm, which is larger than that of the section e. Will be less.

In other words, the interval f is the same as the circular protrusion 22 is moved from the top to the bottom of the central inclined portion 33, which is inclined at an angle of about 50 to 65 ° and becomes approximately straight in the vicinity of the center of gravity G. The movement displacement of the reciprocating slider 23 in the section is about 70 to 75 ° angle between the point L 'and the point A' where the circular protrusion 22 'corresponds to the inflection point, as is the former in the conventional spool reciprocating mechanism. In the case of the latter, when the circular protrusion 22 "moves the inclined part 33" of the linear form inclined by an angle of about 45 degrees, it becomes large compared with the case of moving the curved section which inclines to. It is rather large in comparison with.

In addition, the section g overlaps the section f with the fishing line wound surface 4a through the reciprocating stroke of the spool 4, and the section g has a total movement displacement of 1.2452 mm in the reciprocating slider 23.

In the above section g, since the circular protrusion 22 quickly moves to the straight end 32 through the curved portion 32a, the displacement of the reciprocating slider 23 in the same section corresponds to the former in the conventional spool reciprocating mechanism. As shown in the latter case, the circular protrusion 22 'is larger than the case where the circular protrusion 22' moves to the point A 'section corresponding to the inflection point, and the circular protrusion 22 " It is slightly smaller compared to the case where the irregular point A "converted to 32") is passed.

Therefore, the amount of fishing line winding in the section f and the section g corresponding to the front end of the fishing line winding surface 4a during the reciprocating stroke of the spool 4 is compared with that corresponding to the former among the conventional spool reciprocating mechanisms in the same section. It will be less, not only does not make a difference as compared to the latter, as well as tangling of the fishing line due to the irregular movement of the circular projection 22 "does not occur.

As described above, the amount of winding of the fishing line is slightly increased at the front and rear end portions of the fishing line winding surface 4a by the operation of the spool reciprocating mechanism of the fishing reel according to the present invention. Compared with this, not only the amount of winding of the fishing line is reduced, but also the entanglement of the fishing line due to the irregular flow of the circular protrusion 22 "does not occur in this portion, and in the center portion of the fishing line winding surface 4a Compared with the conventional case, since the amount of winding of the fishing line is increased, the fishing line is uniformly wound around the entire spool.

In addition, the central inclined portion 33 and the straight end portions 31 and 32 of the reciprocating groove 24 are connected in a gentle curve by the curved portions 31a and 32a, and the central inclined portion 33 and the straight end portion 31 are connected. Since 32 is in the form of a curve close to a straight line, the reciprocating grooves 24 are formed to have the same width throughout the central inclined portion 33, the linear ends 31, 32 and the curved portions 31a, 32a, Just by providing a slight gap between the inner circumferential surface of the reciprocating groove 24 and the outer circumferential surface of the circular protrusion 22, the circular protrusion 22 smoothly moves inside the reciprocating groove 24 as the idle gear 21 rotates. In the conventional spool reciprocating mechanism, the widths of the straight portions 31 "and 32" and the inclined portion 33 "are separately considered in consideration of the diameters of the circular protrusions 22". There is no need to produce.

As described above, the spool reciprocating mechanism of the fishing reel according to the present invention improves the reciprocating groove structure of the reciprocating slider for reciprocating the spool forward and backward according to the rotation of the idle gear, thereby simplifying the structure of the reciprocating groove, By winding the spool evenly over the entire surface of the fishing line winding, the fishing line can be smoothly released from the spool during throwing of the fishing gear, and the spool can be moved smoothly back and forth by the rotation of the handle. It is effective.

Claims (1)

Inside the reel unit 1a of the spinning reel 1, an idle gear 21 is engaged with the gear 12a built into the handle shaft 11 and rotates in conjunction with the rotation of the handle. A circular protrusion 22 is formed on one side outer periphery of the reciprocating slider, and a reciprocating slider having a reciprocating groove 24 into which the circular protrusion 22 is inserted is formed at the rear end of the spool shaft 14 having the spool 4 at the front end thereof. 23) is provided to reciprocate the spool (4) forward and backward by the rotation of the handle, The reciprocating groove 24 has a central inclined portion 33 which is inclined at an angle of 50 to 65 ° on the horizontal axis (X) of the orthogonal axis having the geometric center of gravity (G) of the reciprocating groove 24 as a center point. , Straight end portions 31 and 32 extending in the vertical axis (Y) direction of the orthogonal axis while drawing a gentle arc from the central inclined portion 33 by the curved portions 31a and 32a on the upper and lower portions of the central inclined portion 33. Are each spaced apart from the vertical axis (Y), The end of the straight end (31, 32) is spool reciprocating mechanism of the spinning reel, characterized in that formed at the angle of 10 to 20 ° bent to the vertical axis (Y) side.